[/
  Copyright 2011 - 2020 John Maddock.
  Copyright 2013 - 2019 Paul A. Bristow.
  Copyright 2013 Christopher Kormanyos.

  Distributed under the Boost Software License, Version 1.0.
  (See accompanying file LICENSE_1_0.txt or copy at
  http://www.boost.org/LICENSE_1_0.txt).
]

[section:map Roadmap]

[section:hist History]

[h4 Multiprecision-3.2.5 (Boost-1.75)]

* Much improved gcd and modulus operations for __cpp_int.
* Improved addition/subtraction routines for __cpp_int via Intel's intrinsics.
* __gmp_int: add better conversion routines for `long long` and `__int128`.
* __mpfr_float_backend: Fix `log1p` corner case.
* Improve accuracy of complex tan/tanh.
* Improve accuracy of trig functions for __cpp_bin_float.

[h4 Multiprecision-3.2.4 (Boost-1.73)]

* IMPORTANT: Mark C++03 support as deprecated and due for removal in 2021.
* Big update to __cpp_int adds faster Karatsuba and Coomba multiplication routines.
* Fix conversion of __gmp_rational to `long double` and `__float128`, fixes [@https://github.com/boostorg/multiprecision/issues/178 #178].
* Fix up libtommath support to function with the latest libtom releases.
* Fix up some incompatibilities with the latest Intel C++ compiler.
* Fix up `constexpr` arithmetic support for forthcoming MSVC release.

[h4 Multiprecision-3.2.3 (Boost-1.72)]

* Big `constexpr` update allows __cpp_int and __float128__ arithmetic to be fully `constexpr` with gcc and clang 9 or later,
or any compiler supporting `std::is_constant_evaluated()`.

[h4 Multiprecision-3.1.3 (Boost-1.71)]

* Support hexfloat io-formatting for float128.
* Fix various bugs in variable precision interconversions.
* Respect uppercase for '0x' prefix outputs.
* Incorporate some unit tests from the Etherium project.
* Fix some gcc warnings.

[h4 Multiprecision-3.1.2 (Boost-1.70)]

* Fix various conversion issues in the traits classes, check for compatibility with Boost.Optional.
* Prevent instantiation of `std::numeric_limits` on any old type when checking for convertibility.  See [@https://github.com/boostorg/multiprecision/issues/98 #98].
* Update variable precision code to accound for arbitrary precision integers.  See [@https://github.com/boostorg/multiprecision/issues/103 #103].
* Add support for XML serialization archives.
* Fix bug in fixed precision iostream formatting in `mpf_float` and `mpfr_float`.  See [@https://github.com/boostorg/multiprecision/issues/113 #113].
* Add more overloads for special functions which are better handled natively by MPFR.
* Fixed bug in generic `exp` implementation which could cause invariant failure.
* Fixed generic conversion from float to integer to avoid undefined behaviour.  See [@https://github.com/boostorg/multiprecision/issues/110 #110].

[h4 Multiprecision-3.1.1 (Boost-1.69)]

* Big update to better support variable precision types so that the precision of the result
is always the largest of all the arguments.
* Add support for allocators that are `final` in __cpp_int.
* Removed use of deprecated Boost.Endian in favour of Predef.
* Add support for `std::string_view`.
* Fixed minor bug in constant initialization.  See [@https://github.com/boostorg/multiprecision/issues/67 #67].
* Make assignment of non-finite value to `cpp_int` a runtime errors.  See [@https://github.com/boostorg/multiprecision/issues/58 #58].
* Added typedefs for `cpp_bin_float_oct` and `cpp_complex_oct`.

[h4 Multiprecision-3.1.0 (Boost-1.68)]

* Support added for complex multiprecision numbers.
* Changed conversion to unsigned integer types to be truncating to match standard defined behaviour.
* Correct bug in MPFR string formatting.
* Fix undefined behaviour in cpp_dec_float conversion from long long.
* Add support for Eigen interoperability.
* float128.hpp: Fix Intel on Windows build.
* Fix type used in temporaries when expanding expression templates containing mixed expressions.
* Fix infinite loop in gmp_float to fixed-point string conversion.
* Update the expression templates to issue static_asserts with better error messages when you try and do something unsupported.
* Fix bug in cpp_int where incrementing to zero doesn't set the sign correctly.
* Remove erroneous use of std::move, and rely on NVRO instead.
* Fix up support for changes to MPIR-3.0.
* Fix various conversion errors in cpp_bin_float when the exponent type is a `long long`, or else we're converting to
an integer that is wider than we are.
* Fix compatibility issue with GCC-8 caused by the introduction of `std::byte`.

[h4 Multiprecision-3.0.0 (Boost-1.67)]

* [*Breaking Change:] When converting a multiprecision integer to a narrower type, if the value is too large (or negative) to
fit in the smaller type, then the result is either the maximum (or minimum) value of the target type.  This was always the intended
behaviour, but was somewhat haphazardly enforced before.  If you really do want just the low order N bits of a value, then you will
need to mask these out prior to the case, for example: `static_cast<unsigned>(~static_cast<unsigned>(0) & my_value)`.  Note that
technically (to avoid undefined behaviour) you should do the same thing with __fundamental integer types too.
See [@https://svn.boost.org/trac/boost/ticket/13109 #13109].
* Fix bug in conversion of decimal to rational types (zero needs special handling), see [@https://svn.boost.org/trac/boost/ticket/13148 #13148].
* Fix conversion from cpp_bin_float to a wider __fundamental integer type, see [@https://svn.boost.org/trac/boost/ticket/13301 #13301].
* Improve performance heurists used in cpp_bin_float exp function.
* Fix bug in floor/ceil and cpp_bin_float when the exponent type is wider than an int, see [@https://svn.boost.org/trac/boost/ticket/13264 #13264].
* Disable explicit conversion operator when the target type is already constructible from this type, see  [@https://github.com/boostorg/multiprecision/issues/30 #30].
* Fix support for changes new to MPIR-3.0, see [@https://svn.boost.org/trac/boost/ticket/13124 #13124].

[h4 Multiprecision-2.3.2 (Boost-1.65)]

* Updated expression templates to store arithmetic literals directly in the expression template to prevent dangling references, see [@https://github.com/boostorg/multiprecision/issues/19 #19].
* Fix various issues with huge values and overflow in the trig, pow and exp functions, see [@https://github.com/boostorg/multiprecision/issues/24 #24].
* Fix error handling of checked cpp_int multiply that could cause some overflows to be missed.

[h4 Multiprecision-2.3.1 (Boost-1.64)]

* In `cpp_bin_float` prevent double rounding when converting to a denormalized float.  See [@https://svn.boost.org/trac/boost/ticket/12527 #12527].
* Fix bug in integer sqrt for very small integers.  See [@https://svn.boost.org/trac/boost/ticket/12559 #12559].
* Fix conversion to signed-zero in `cpp_bin_float`.
* Change `cpp_bin_float` rounding code to round at arbitrary location so we can use it for conversions, see [@https://svn.boost.org/trac/boost/ticket/12527 #12527].
* Improve performance of 128-bit bit-scan operations.
* Fix subtraction of very small quantities in `cpp_bin_float`.  See: [@https://svn.boost.org/trac/boost/ticket/12580 #12580].
* Bring error handling into line with C99 Annex F.  See [@https://svn.boost.org/trac/boost/ticket/12581 #12581].
* Fix bitwise export of trivial `cpp_int`'s, see [@https://svn.boost.org/trac/boost/ticket/12627 #12627].
* Fix `ilogb` (and code that uses it) to consistently return the smallest value of the exponent type when the argument is zero, see [@https://svn.boost.org/trac/boost/ticket/12625 #12625].
* Allow conversion from `__float128__` to `cpp_bin_float`.
* Fix bug in left shift of `cpp_int` which would result in bit-loss, see [@https://svn.boost.org/trac/boost/ticket/12790 #12790].
* Fixed bugs in bounded but variable precision `cpp_int`'s caused by over-aggressive constexpr optimization, see [@https://svn.boost.org/trac/boost/ticket/12798 #12798].


[h4 Multiprecision-2.3.0 (Boost-1.63)]

* Added support for all the C99 math functions.
* Extended generic-interconversions to handle narrowing cases as well, changed convert_to member function and hence explicit
conversion operators to use the same conversion code as the explicit constructors.
* Fix IO stream parsing error, see [@https://svn.boost.org/trac/boost/ticket/12488 #12488].
* Make default constructed floating point types all zero for consistency, see [@https://svn.boost.org/trac/boost/ticket/12500 #12500].
* Fix conversion of cpp_bin_float to float/double/long double when the exponent value would overflow an int, see [@https://svn.boost.org/trac/boost/ticket/12512 #12512].
* Fix cpp_bin_float subtractions that yield signed-zeros, see [@https://svn.boost.org/trac/boost/ticket/12524 #12524].
* Fix ceil/trunc/round applied to cpp_bin_float and yielding a signed zero, see [@https://svn.boost.org/trac/boost/ticket/12525 #12525].

[h4 Multiprecision-2.2.8 (Boost-1.62)]

* Added support for hashing via `Boost.Hash` or `std::hash`.
* Fixed some arithmetic operations in cpp_bin_float and cpp_dec_float that should generate a NaN, see [@https://svn.boost.org/trac/boost/ticket/12157 #12157].
* Prevent inadvertant instantiation of variable-precision `mpfr_float_backend` with fixed allocation.
* Fixed division over/underflow in cpp_bin_float, see [@https://svn.boost.org/trac/boost/ticket/12167 #12167].
* Added support for signed-zeros throughout the library, including support for `signbit` and `copysign`, mpfr, float128, and cpp_bin_float types
should now respect signed-zeros correctly.
* Fixed bug in conversion of cpp_bin_float infinities to double etc, see [@https://svn.boost.org/trac/boost/ticket/12196 #12196].
* Fix add and subtract of cpp_bin_float when the exponents would overflow., see [@https://svn.boost.org/trac/boost/ticket/12198 #12198].
* Improve variable-precision support in mpfr and mpf backends, allow these types to be used with Boost.Math.
* Fixed bug in subtraction of signed infinities in cpp_bin_float, see [@https://svn.boost.org/trac/boost/ticket/12209 #12209].
* Fix result of sqrt(infinity) in cpp_bin_float (result should be infinity), see [@https://svn.boost.org/trac/boost/ticket/12227 #12227].
* Added workaround in gmp.hpp for recent MPIR releases which are not quite source-compatible with GMP on Windows x64.
* Allow `cpp_int` code to be used with /RTCc with MSVC.
* Fix conversion of `cpp_int` to signed integer when the result is INT_MIN, see [@https://svn.boost.org/trac/boost/ticket/12343 #12343].
* Update uBlas support to match latest uBlas code.
* Fix some errors present when building on big-endian machines (not all `cpp_int` constructors are available on non-little-endian machines).
* Fix fencepost error in rational to float conversion routines, see [@https://svn.boost.org/trac/boost/ticket/12327 #12327].
* Fix some Oracle C++ compiler compatibility issues.
* Add modf support to complete C90 compatibility.
* Fix self assignment bug in expression template code for expressions such as `a = a * a * a`, see [@https://svn.boost.org/trac/boost/ticket/12408 #12408].
* Fixed some compiler errors that occur when converting from `cpp_int` to `cpp_bin_float`.

[h4 Multiprecision-2.2.7 (Boost-1.61)]

* Fixed bug in stream input for integer types, see [@https://svn.boost.org/trac/boost/ticket/11857 #11857].
* Fixed some ambiguous conversions involving expression templates see [@https://svn.boost.org/trac/boost/ticket/11922 #11922].
* Add expression template aware min/max overloads see [@https://svn.boost.org/trac/boost/ticket/11149 #11149].
* Fix bug in right shifting negative small integers in cpp_int see [@https://svn.boost.org/trac/boost/ticket/11999 #11999].
* Use memmove for bitshifts in cpp_int when possible see [@https://svn.boost.org/trac/boost/ticket/9233 #9233].
* Use memcpy for data import into cpp_int where possible, see [@https://svn.boost.org/trac/boost/ticket/9235 #9235].
* Changed `cpp_bin_float.convert_to<double>()` to a function template rather than proceding via `long double` to avoid
double-rounding bug, see [@https://svn.boost.org/trac/boost/ticket/12039 #12039].
* Fixed conversions from NaNs and Infinities, see [@https://svn.boost.org/trac/boost/ticket/12112 #12112].
* Enabled better support for Clang on Windows.
* Fixed handling of NaNs and Infinities in basic arithmetic for cpp_dec_float and cpp_bin_float, see [@https://svn.boost.org/trac/boost/ticket/12090 #12090].
* Fixed fencepost error in cpp_bin_float subtraction.
* Fixed double-rounding in conversion to float routines for cpp_bin_float, see [@https://svn.boost.org/trac/boost/ticket/12039 #12039].
* Make float128 denorm aware, see [@https://svn.boost.org/trac/boost/ticket/12075 #12075].
* Allow the library and tests to be used without exception handling support, see [@https://svn.boost.org/trac/boost/ticket/12070 #12070].
* Fixed buggy comparison operator overloads for boost::rational.
* Added some workarounds for Oracle C++.
* Fixed some missing typecasts for cases where cpp_int's limb_type is wider than unsigned.


[h4 Multiprecision-2.2.6 (Boost-1.60)]

* Fixed result of Miller Rabin primality test for value 2, see [@https://svn.boost.org/trac/boost/ticket/11495 #11495].
* Improved initialization of cpp_int from very large strings of hex or octal digits, see [@https://svn.boost.org/trac/boost/ticket/11590 #11590].
* Fixed fmod behaviour for negative divisors, see [@https://svn.boost.org/trac/boost/ticket/11641 #11641].
* Fixed infinite division loop in cpp_int special case, see [@https://svn.boost.org/trac/boost/ticket/11648 #11648].
* Patched missing return statement in [@https://svn.boost.org/trac/boost/ticket/11762 #11762].
* Fixed mixed mode arithmetic compiler error in [@https://svn.boost.org/trac/boost/ticket/11764 #11764].
* Fixed over-aggressive use of noexcept in [@https://svn.boost.org/trac/boost/ticket/11826 #11826].


[h4 Multiprecision-2.2.5 (Boost-1.59)]

* Depricated boost/multiprecision/random.hpp as it's no longer needed, updated random examples to match.
* Fixed a bug in `cpp_int` right shift operator when shifting negative values - semantics now gives the
same values as shifting 2's compliment integers, though not the same bit pattern.
* Fixed support for GCC-4.6.4 in C++0x mode by disabling conditional noexcept suppoprt for that compiler
see [@https://svn.boost.org/trac/boost/ticket/11402 #11402].
* Suppressed numerous compiler warnings.

[h4 Multiprecision-2.2.4 (Boost-1.58)]

* Changed `frexp` to always be non-expression template generating, see: [@https://svn.boost.org/trac/boost/ticket/10993 10993].
* Improved support of cpp_dec_float on Cygwin and other platforms with missing long double support, see [@https://svn.boost.org/trac/boost/ticket/10924 10924].
* Improved noexcept support and added some more tests, see [@https://svn.boost.org/trac/boost/ticket/10990 10990].
* Various workarounds applied for Intel-15.0 and Solaris-12.4 compilers.

[h4 Multiprecision-2.2.3 (Boost-1.57)]

* Changed rational to float conversions to exactly round to nearest, see [@https://svn.boost.org/trac/boost/ticket/10085 10085].
* Added improved generic float to rational conversions.
* Fixed rare bug in exponent function for __cpp_bin_float.
* Fixed various minor documentation issues.

[h4 Multiprecision-2.2.2 (Boost-1.56)]

* Change floating-point to rational conversions to be implicit, see [@https://svn.boost.org/trac/boost/ticket/10082 10082].
* Fix definition of checked_cpp_rational typedef.

[h4 Multiprecision-2.2.1]

* Fix bug in assignment from string in cpp_int, see [@https://svn.boost.org/trac/boost/ticket/9936 9936].

[h4 Multiprecision-2.2.0]

* Moved to Boost.Multiprecision specific version number - we have one breaking change in Boost-1.54
which makes this major version 2, plus two releases with new features since then.
* Added new __cpp_bin_float backend for binary floating-point.
* Added MSVC-specific #include for compiler intrinsics, see [@https://svn.boost.org/trac/boost/ticket/9336 9336].
* Fixed various typos in docs, see [@https://svn.boost.org/trac/boost/ticket/9432 9432].
* Fixed __gmp_rational to allow move-copy from an already copied-from object, see [@https://svn.boost.org/trac/boost/ticket/9497 9497].
* Added list of values for numeric_limits.

[h4 Boost-1.55]

* Added support for Boost.Serialization.
* Suppressed some GCC warnings.  See [@https://svn.boost.org/trac/boost/ticket/8872 8872].
* Fixed bug in pow for large integer arguments.  See [@https://svn.boost.org/trac/boost/ticket/8809 8809].
* Fixed bug in pow for calculation of 0[super N].  See [@https://svn.boost.org/trac/boost/ticket/8798 8798].
* Fixed bug in fixed precision cpp_int IO code that causes conversion to string to fail when the
bit count is very small (less than CHAR_BIT).  See [@https://svn.boost.org/trac/boost/ticket/8745 8745].
* Fixed bug in cpp_int that causes left shift to fail when a fixed precision type would overflow.
See [@https://svn.boost.org/trac/boost/ticket/8741 8741].
* Fixed some cosmetic warnings from cpp_int.  See [@https://svn.boost.org/trac/boost/ticket/8748 8748].
* Fixed calls to functions which are required to be macros in C99.  See [@https://svn.boost.org/trac/boost/ticket/8732 8732].
* Fixed bug that causes construction from INT_MIN, LONG_MIN etc to fail in cpp_int.  See [@https://svn.boost.org/trac/boost/ticket/8711 8711].

[h4 1.54]

* [*Breaking change] renamed `rational_adapter` to `rational_adaptor`.
* Add support for [mpfi].
* Add logged_adaptor.
* Add support for 128-bit floats via GCC's `__float128` or Intel's `_Quad` data types.
* Add support for user-defined literals in cpp_int, improve `constexpr` support.
* Fixed bug in integer division of `cpp_int` that results in incorrect sign of `cpp_int` when both arguments are small enough
to fit in a `double_limb_type`.  See [@https://svn.boost.org/trac/boost/ticket/8126 8126].
* Fixed bug in subtraction of a single limb in `cpp_int` that results in incorrect value when the result should have a 0
in the last limb: [@https://svn.boost.org/trac/boost/ticket/8133 8133].
* Fixed bug in `cpp_int` where division of 0 by something doesn't get zero in the result: [@https://svn.boost.org/trac/boost/ticket/8160 8160].
* Fixed bug in some transcendental functions that caused incorrect return values when variables are reused, for example with
`a = pow(a, b)`.  See [@https://svn.boost.org/trac/boost/ticket/8326 8326].
* Fixed some assignment operations in the mpfr and gmp backends to be safe if the target has been moved from: [@https://svn.boost.org/trac/boost/ticket/8326 8667].
* Fixed bug in `cpp_int` that gives incorrect answer for 0%N for large N: [@https://svn.boost.org/trac/boost/ticket/8670 8670].
* Fixed set_precision in mpfr backend so it doesn't trample over an existing value: [@https://svn.boost.org/trac/boost/ticket/8692 8692].

[h4 1.53]

* First Release.
* Fix bug in [@https://svn.boost.org/trac/boost/ticket/7878 cpp_int division].
* Fix issue [@https://svn.boost.org/trac/boost/ticket/7806 #7806].

[h4 Post review changes]

* Non-expression template operators further optimised with rvalue reference support.
* Many functions made `constexp`.
* Differentiate between explicit and implicit conversions in the number constructor.
* Removed "mp_" prefix from types.
* Allowed mixed precision arithmetic.
* Changed ExpressionTemplates parameter to class `number` to use enumerated values rather than true/false.
* Changed ExpressionTemplate parameter default value to use a traits class so that the default value depends on the backend used.
* Added support for fused-multiply-add/subtract with GMP support.
* Tweaked expression template unpacking to use fewer temporaries when the LHS also appears in the RHS.
* Refactored `cpp_int_backend` based on review comments with new template parameter structure.
* Added additional template parameter to `mpfr_float_backend` to allow stack-based allocation.
* Added section on mixed precision arithmetic, and added support for operations yielding a higher precision result
than either of the arguments.
* Added overloads of integer-specific functions for __fundamental integer types.

[h4 Pre-review history]

*2011-2012, John Maddock adds an expression template enabled front-end to Christopher's code,
and adds support for other backends.
* 2011, Christopher Kormanyos publishes the decimal floating-point code under the Boost
Software Licence.  The code is published as: [@http://doi.acm.org/10.1145/1916461.1916469
"Algorithm 910: A Portable C++ Multiple-Precision
System for Special-Function Calculations"], in ACM TOMS, {VOL 37, ISSUE 4, (February 2011)} (C) ACM,
2011.
* 2002-2011, Christopher Kormanyos develops the all C++ decimal arithmetic floating-point code.

[endsect] [/section:hist History]


[section:todo TODO]

More a list of what ['could] be done, rather than what ['should] be done (which may be a much smaller list!).

* Add back-end support for libdecNumber.
* Add an adaptor back-end for complex number types.
* Add better multiplication routines (Karatsuba, FFT etc) to cpp_int_backend.
* Add assembly level routines to cpp_int_backend.
* Can ring types (exact floating-point types) be supported?  The answer should be yes, but someone needs to write it,
the hard part is IO and binary-decimal conversion.
* Should there be a choice of rounding mode (probably MPFR specific)?
* We can reuse temporaries in multiple subtrees (temporary caching).
* cpp_dec_float should round to nearest.
* A 2's complement fixed precision int that uses exactly N bits and no more.

Things requested in review:

* The performances of mp_number<a_trivial_adaptor<float>, false>respect to
float and mp_number<a_trivial_adaptor<int>, false> and int should be
given to show the cost of using the generic interface (Mostly done, just need to update docs to the latest results).
* Should we provide min/max overloads for expression templates?  (Not done - we can't overload functions declared in the std namespace :-( ).
* The rounding applied when converting must be documented (Done).
* Document why we don't abstract out addition/multiplication algorithms etc. (done - FAQ)
* Document why we don't use proto (compile times)  (Done).
* We can reuse temporaries in multiple subtrees (temporary caching)  Moved to TODO list.
* Emphasise in the docs that ET's may reorder operations (done 2012/10/31).
* Document what happens to small fixed precision cpp_int's (done 2012/10/31).
* The use of bool in template parameters could be improved by the use of
an enum class which will be more explicit. E.g `enum class expression_template {disabled, enabled};
enum class sign {unsigned, signed};`  (Partly done 2012/09/15, done 2012/10/31).
* Each back-end should document the requirements it satisfies (not currently scheduled for inclusion: it's
deliberately an implementation detail, and "optional" requirements are optimisations which can't be detected
by the user).  Not done: this is an implementation detail, the exact list of requirements satisfied is purely
an optimization, not something the user can detect.
* A backend for an overflow aware integers (done 2012/10/31).
* IIUC convert_to is used to emulate in c++98 compilers C++11 explicit
conversions. Could the explicit conversion operator be added on
compilers supporting it?  (Done 2012/09/15).
* The front-end should make the differences between implicit and explicit
construction (Done 2012/09/15).
* The tutorial should add more examples concerning implicit or explicit
conversions. (Done 2012/09/15).
* The documentation must explain how move semantics helps in this domain
and what the backend needs to do to profit from this optimization. (Done 2012/09/15).
* The documentation should contain Throws specification on the mp_number
and backend requirements operations. (Done 2012/09/15).
* The library interface should use the noexcept (BOOST_NOEXCEPT, ...)
facilities (Done 2012/09/15).
* It is unfortunate that the generic mp_number front end can not make use
constexpr as not all the backends can ensure this (done - we can go quite a way).
* literals: The library doesn't provide some kind of literals. I think that the
mp_number class should provide a way to create literals if the backend
is able to.  (Done 2012/09/15).
* The ExpresionTemplate parameter could be defaulted to a traits class for more sensible defaults (done 2012/09/20).
* In a = exp1 op exp2 where a occurs inside one of exp1 or exp2 then we can optimise and eliminate one more temporary (done 2012/09/20).


[h4 Pre-Review Comments]

* Make fixed precision orthogonal to Allocator type in cpp_int.  Possible solution - add an additional MaxBits
template argument that defaults to 0 (meaning keep going till no more space/memory).  Done.
* Can ring types (exact floating-point types) be supported?  The answer should be yes, but someone needs to write it (Moved to TODO list).
* Should there be a choice of rounding mode (probably MPFR specific)?  Moved to TODO list.
* Make the exponent type for cpp_dec_float a template parameter, maybe include support for big-integer exponents.
Open question - what should be the default - int32_t or int64_t?  (done 2012/09/06)
* Document the size requirements of fixed precision ints (done 2012/09/15).
* Document std lib function accuracy (done 2012/09/15).
* Be a bit clearer on the effects of sign-magnitude representation of cpp_int - min == -max etc - done.
* Document cpp_dec_float precision, rounding, and exponent size (done 2012/09/06).
* Can we be clearer in the docs that mixed arithmetic doesn't work (no longer applicable as of 2012/09/06)?
* Document round functions behaviour better (they behave as in C++11) (added note 2012/09/06).
* Document limits on size of cpp_dec_float (done 2012/09/06).
* Add support for fused multiply add (and subtract).  GMP mpz_t could use this (done 2012/09/20).

[endsect] [/section:todo TODO]

[section:faq FAQ]

[variablelist
[[Why do I get compiler errors when passing a `number` to a template function?]
   [Most likely you are actually passing an expression template type to the function and
   template-argument-deduction deduces the "wrong" type.  Try casting the arguments
   involving expressions to the actual number type, or as a last resort turning off
   expression template support in the number type you are using.]]
[[When is expression template support a performance gain?]
   [As a general rule, expression template support adds a small runtime overhead
   creating and unpacking the expression templates, but greatly reduces the number of
   temporaries created.  So it's most effective in improving performance when the cost
   of creating a temporary is high: for example when creating a temporary involves a memory
   allocation.  It is least effective (and may even be a dis-optimisation) when temporaries
   are cheap: for example if the number type is basically a thin wrapper around a native
   arithmetic type.  In addition, since the library makes extensive use of thin inline wrapper
   functions, turning on compiler optimization is essential to achieving high performance.]]
[[Do expression templates reorder operations?]
   [Yes they do, sometimes quite radically so, if this is a concern then they should be turned
   off for the number type you are using.]]
[[I can't construct my number type from ['some other type], but the docs indicate that the conversion should be allowed, what's up?]
   [Some conversions are ['explicit], that includes construction from a string, or constructing from any type
   that may result in loss of precision (for example constructing an integer type from a float).]]
[[Why do I get an exception thrown (or the program crash due to an uncaught exception) when using the bitwise operators on a checked `cpp_int`?]
   [Bitwise operations on negative values (or indeed any signed integer type) are unspecified by the standard.  As a result
   any attempt to carry out a bitwise operation on a negative checked-integer will result in a `std::range_error` being thrown.]]
[[Why do I get compiler errors when trying to use the complement operator?]
   [Use of the complement operator on signed types is problematic as the result is unspecified by the standard, and is further
   complicated by the fact that most extended precision integer types use a sign-magnitude representation rather than the 2's
   complement one favored by most native integer types.  As a result the complement operator is deliberately disabled for
   checked `cpp_int`'s.  Unchecked `cpp_int`'s give the same valued result as a 2's complement type would, but not the same bit-pattern.]]
[[Why can't I negate an unsigned type?]
   [The unary negation operator is deliberately disabled for unsigned integer types as its use would almost always be a programming error.]]
[[Why doesn't the library use proto?]
   [A very early version of the library did use proto, but compile times became too slow
   for the library to be usable.  Since the library only required a tiny fraction of what
   proto has to offer anyway, a lightweight expression template mechanism was used instead.
   Compile times are still too slow...]]
[[Why not abstract out addition/multiplication algorithms?]
   [This was deemed not to be practical: these algorithms are intimately
   tied to the actual data representation used.]]
 [[How do I choose between Boost.Multiprecision `cpp_bin_50` and `cpp_dec_50`?]
   [Unless you have a specific reason to choose `cpp_dec_`, then the default choice should be `cpp_bin_`, 
   for example using the convenience `typedefs` like `nil::crypto3::multiprecision::cpp_bin_50` or `nil::crypto3::multiprecision::cpp_bin_100`.

  In general, both work well and give the same results and at roughly the same speed with `cpp_dec_50` sometimes faster.

  `cpp_dec_` was developed first paving the way for `cpp_bin_`. 
  `cpp_dec_` has several guard digits and is not rounded at all, using 'brute force' to get the promised number of decimal digits correct,
  but making it difficult to reason about precision and computational uncertainty, for example see [*https://svn.boost.org/trac10/ticket/12133].
  It also has a fast but imprecise division operator giving surprising results sometimes, see [*https://svn.boost.org/trac10/ticket/11178].

  `cpp_bin_` is correctly/exactly rounded making it possible to reason about both the precision and rounding of the results.]]
] [/variablelist]

[endsect] [/section:faq FAQ]

[section:ack Acknowledgements]

This library would not have happened without:

* Christopher Kormanyos' C++ decimal number code.
* Paul Bristow for patiently testing, and commenting on the library.
* All the folks at GMP, MPFR and libtommath, for providing the "guts" that makes this library work.
* [@http://www-cs-faculty.stanford.edu/~uno/taocp.html "The Art Of Computer Programming"],
Donald E. Knuth, Volume 2: Seminumerical Algorithms, Third Edition
(Reading, Massachusetts: Addison-Wesley, 1997), xiv+762pp. ISBN 0-201-89684-2

[endsect] [/section:ack Acknowledgements]


[endsect] [/section: Roadmap]
